RESUMEN
Objective:To investigate the influence of α cells and glucagon-like peptide l (GLP-1) in the function of β cells (INS-1 cells) in the rats,and to elucidate the possible mechanism of α cells and INS-1 cells transplantation in influencing hypoglycemia.Methods:The proliferation abilities of INS-1 cells after treated with 10%,20% and 30% islet α-cell conditioned medium and 0.03,0.30,3.00,30.0 mg · L-1 of GLP-1 were analyzed by MTT assay.The levels of insulin secretion of INS-1 cells after treated with 10%,20%,30% α cells,α-cell conditioned medium and different concentrations of GLP-1 were analyzed by enzyme linked immunosorbent assay (ELISA).The concentrations of Ca2+ in INS-1 cells after treated with high glucose and GLP-1 were analyzed by laser confocal microscope.The expression levels of insulin protein after treated with different concentrations of islet α-cell conditioned medium and different concentrations of GLP-1 were detected by Western blotting methed.After the INS-1 cells,the mixture of INS-1 cells and α cells were transplanted into the left renal capsule of the nude mice,the blood glucose levels and the kidney morphology were observed.The levels of insulin/glucagon in the transplanted cells were detected by immunohistochemistry.Results:Compared with control group,both of α-cell conditioned media and GLP-1 promoted the INS-1 cell proliferation and insulin secretion (P < 0.05).The laser confocal microscope results revealed that GLP-1 stimulated the increased intracellular Ca2+ concentration in INS-1 cells (P< 0.05).Compared with control group,there was no significant difference in the expression levels of insulin protein in the insulin-1 cells after treated with islet α cell conditioned medium and GLP-1 (P>0.05).Compared with pre transplantation,the blood glucose level in the transplanted INS-1 cells was significantly decreased at 35 d after renal capsul trasplantation (P<0.05),and even hypoglycemia presented renal capsular in the diabetic nude mice;the transplantation site was obviously swollen.However,the levels of blood glucose had no change of the diabetic rats after transplated with the mixture of INS-1 and α cells (P<0.05).The expression of insulin and glucagon in the INS-1 transplanted cells were found by immunohistochemistry staining.Conclusion:Pancreatic islet α cells and their secretions can promote the INS-1 cell proliferation and insulin secretion,and the mixture of INS-1 cells and α cells transplanted under the renal capsule of the diabetic nude mice can reduce the hypoglycemic effect of INS-1 cell transplantation which might be related to the INS-1 cells that can express both of insulin and glucagon genes.
RESUMEN
Objective:To investigate the influence of α cells and glucagon-like peptide l (GLP-1) in the function of β cells (INS-1 cells) in the rats,and to elucidate the possible mechanism of α cells and INS-1 cells transplantation in influencing hypoglycemia.Methods:The proliferation abilities of INS-1 cells after treated with 10%,20% and 30% islet α-cell conditioned medium and 0.03,0.30,3.00,30.0 mg · L-1 of GLP-1 were analyzed by MTT assay.The levels of insulin secretion of INS-1 cells after treated with 10%,20%,30% α cells,α-cell conditioned medium and different concentrations of GLP-1 were analyzed by enzyme linked immunosorbent assay (ELISA).The concentrations of Ca2+ in INS-1 cells after treated with high glucose and GLP-1 were analyzed by laser confocal microscope.The expression levels of insulin protein after treated with different concentrations of islet α-cell conditioned medium and different concentrations of GLP-1 were detected by Western blotting methed.After the INS-1 cells,the mixture of INS-1 cells and α cells were transplanted into the left renal capsule of the nude mice,the blood glucose levels and the kidney morphology were observed.The levels of insulin/glucagon in the transplanted cells were detected by immunohistochemistry.Results:Compared with control group,both of α-cell conditioned media and GLP-1 promoted the INS-1 cell proliferation and insulin secretion (P < 0.05).The laser confocal microscope results revealed that GLP-1 stimulated the increased intracellular Ca2+ concentration in INS-1 cells (P< 0.05).Compared with control group,there was no significant difference in the expression levels of insulin protein in the insulin-1 cells after treated with islet α cell conditioned medium and GLP-1 (P>0.05).Compared with pre transplantation,the blood glucose level in the transplanted INS-1 cells was significantly decreased at 35 d after renal capsul trasplantation (P<0.05),and even hypoglycemia presented renal capsular in the diabetic nude mice;the transplantation site was obviously swollen.However,the levels of blood glucose had no change of the diabetic rats after transplated with the mixture of INS-1 and α cells (P<0.05).The expression of insulin and glucagon in the INS-1 transplanted cells were found by immunohistochemistry staining.Conclusion:Pancreatic islet α cells and their secretions can promote the INS-1 cell proliferation and insulin secretion,and the mixture of INS-1 cells and α cells transplanted under the renal capsule of the diabetic nude mice can reduce the hypoglycemic effect of INS-1 cell transplantation which might be related to the INS-1 cells that can express both of insulin and glucagon genes.
RESUMEN
ObjectiveTo investigate the role played by acute glucagon response in the short-term intensive insulin therapy induced long-term remission of newly-diagnosed type 2 diabetes.MethodsTen newly-diagnosed type 2 diabetic patients( 7 males,3 females) received intensive continuous subcutaneous insulin infusion( CSII )therapy for 2 weeks.Intravenous glucose tolerance test (IVGTT) and hyperinsulinemia euglycemia clamp test were performed before and after CSII.Glucose infusion rate ( GIR ),acute insulin response ( AIR ) and acute glucagon response (AGR) were assessed.Long-term remission was defined as good glycaemic control without any hypoglycaemic agent (fasting plasma glucose < 7.0 mmol/L 及 2 h postprandial glucose < 10 mmol/L) one year after CSII.Relationship between AGR and long-term remission were analyzed by one way ANOVA and Spearman correlation analysis.Results ( 1 ) Five of the ten patients achieved long-term remission in this study.GIR and AIR in the remission group were increased significantly after CSII compared with those before CSII [ GIR ( 5.39 ± 1.76 vs 2.02 ± 0.83 )mg · kg-1 ·min-1,AIR ( mean 54.1 vs mean 3.39 ) mU · L-1 · min,P<0.01 respectively ],however both of them were not associated with the remission.(2) AGR in the remission group was significantly higher than that in the non-remission group before CSII ( 5.10±0.60 vs 2.85 ± 1.86,P<0.05 ) and was decreased significantly after CSII.The mean of AGR after CSII was apparently lower in the remission group than that in non-remission group (0 vs 3.04±2.00,P<0.01 ).(3)Spearman analysis showed that AGR before CSII and its range of reduction after CSII were correlated with remission ( r for both were 0.731,P=0.016).ConclusionHigher level of AGR before CSII and greater reduction after CSII in the subjects with newly-diagnosed type 2 diabetes were significantly associated with long-term remission,suggesting that pancreatic α cells may play a unique role in the induction of remission of type 2 diabetes.